"Takatoshi Sekiguchi,Keisuke Yoshida,Yuki Okegawa,takeshi motohashi,Ken-Ichi Wakabayashi,TORU HISABORI","Chloroplast ATP synthase is reduced by both f-type and m-type thioredoxins",,"Biochim. biophys. acta, Bioenerg",,"Vol. 1861",,"p. 148261",2020,Nov.
"Motohashi K,Hisabori T","CcdA Is a Thylakoid Membrane Protein Required for the Transfer of Reducing Equivalents from Stroma to Thylakoid Lumen in the Higher Plant Chloroplast.",,"Antioxid Redox Signal.",,"Vol. 13","No. 8","pp. 1169-76",2010,Oct.
"Kojima, K.,Motohashi, K.,Morota, T.,Oshita, M.,Hisabori, T.,Hayashi, H.,Nishiyama, Y.","Regulation of translation by the redox state of elongation factor G in the cyanobacterium Synechocystis sp. PCC 6803.",,"J. Biol. Chem.",,"Vol. 284","No. 28","pp. 28685-18691",2009,July
"Motohashi, K.,Romano, P. G.,Hisabori, T.","Identification of thioredoxin targeted proteins using thioredoxin single cysteine mutant-immobilized resin.",,"Methods Mol. Biol.",,"Vol. 479",,"pp. 117-131",2009,
"Kobayashi, K.,Mochizuki, N.,Yoshimura, N.,Motohashi, K.,Hisabori T.,Masuda T.","Functional analysis of Arabidpsis thaliana isoforms of the Mg-chelatase CHLI subunit",,"Photochem. Photobiol. Sci.",,"Vol. 7",,"pp. 1188-1195",2008,Oct.
"Hishiya, S.,Hatakeyama, W.,Mizota, Y.,Hosoya-Matsuda, N.,Motohashi, K.,Ikeuchi, M.,Hisabori, T.","Binary reducing equivalent pathways using NADPH-thioredoxin reductase and ferredoxin-thioredoxin reductase in the cyanobacterium Synechocystis sp. strain PCC 6803",,"Plant Cell Physiology",,"Vol. 49","No. 1","p. 11-18",2008,Jan.
"Ikegami A,Yoshimura N,Motohashi K,Romano PG,Hisabori T,Takamiya K,Masuda T.,S Takahashi","The CHLI1 Subunit of Arabidopsis thaliana Magnesium Chelatase Is a Target Protein of the Chloroplast Thioredoxin",,"J. Biol. Chem.","ASBMB","Vol. 282","No. 27","Page 19282-19291",2007,July
"久堀 徹,本橋 健,中西洋一,小山史恵","インテリジェントなプロテオミクス研究を求めて",,"蛋白質核酸酵素","共立出版","Vol. 48","No. 9","Page 1263-1268",2003,July
"Yo-hei Watanabe,takeshi motohashi,Hideki Taguchi,Masasuke Yoshida","Heat-inactivated proteins managed by DnaKJ-GrpE-ClpB chaperones are released as a chaperonin-recognizable nonnative form.",,"J. Biol. Chem.",,"Vol. 275","No. 17","pp. 12388-12392",2000,Apr.
"Yuko Asahara,Kyoko Atsuta,takeshi motohashi,Hideki Taguchi,Masafumi Yohda,Masasuke Yoshida","FtsH recognizes unfolded proteins and hydrolyzes carboxyl side of hydrophobic residues.",,"J. Biochem.",,"Vol. 127",,"pp. 931-937",2000,